CN114801333A

CN114801333A - Compact structure's high-efficient two-way limit equipment that glues of paper plastic products

Info

Publication number: CN114801333A
Application number: CN202210237773.6A
Authority: CN
Inventors: 李良凯
Original assignee: Just Biodegradable Technology Co ltd
Current assignee: Just Biodegradable Technology Co ltd
Priority date: 2022-03-11
Filing date: 2022-03-11
Publication date: 2022-07-29
Anticipated expiration: 2042-03-11
Also published as: CN114801333B

Abstract

The invention provides high-efficiency bidirectional edge bonding equipment for a paper-plastic product with a compact structure, which comprises a feeding assembly, an upper rolling assembly, a lower rolling assembly, an upper paper tape rotating seat, a lower paper tape rotating seat, a traction assembly, a tensioning assembly, a heating assembly, a front cutting structure, a rear cutting structure and a glue spraying structure, wherein the feeding assembly is arranged on the feeding assembly; the upper paper tape swivel mount and the lower paper tape swivel mount are respectively arranged on the same side and are opposite up and down; the traction assembly is arranged on one side opposite to the upper paper tape rotating seat and the lower paper tape rotating seat; the upper roll pressing component is arranged right above the edge bonding space; the lower rolling component is arranged right below the edge bonding space; the feeding component is arranged on the feeding side; the heating component is arranged on the other side of the length direction of the edge bonding space; the tensioning assembly is arranged in the edge bonding space; the front cutting structure is arranged in the sticky edge space; the rear cutting structure is arranged in the sticky edge space; the glue spraying structure is arranged corresponding to the sticky edge space and close to one side of the front cutting structure. On one hand, the efficient completion of double-sided edge bonding operation is ensured, and on the other hand, the integral internal structure of the equipment is ensured to be compact.

Description

Compact structure's high-efficient two-way limit equipment that glues of paper plastic products

Technical Field

The invention relates to the technical field of paper-plastic processing, in particular to a high-efficiency bidirectional edge bonding device for a paper-plastic product with a compact structure.

Background

The paper is moulded by plastic and kraft paper complex, and the plastic layer adopts pp polypropylene to weave the cloth in the pp flat poles silk of substrate usually, and the kraft paper adopts refined compound special kraft paper, mainly realizes the unitized transportation paper plastic bag with manpower or fork truck and also known as trinity compound paper bag, is one kind at present most popular and practical ordinary packaging material, and the kraft paper drenches the membrane cloth and through the fashioned of system bag.

The Chinese patent publication No. CN 215704552U, the publication date 2/1/2022, and the patent name of the patent are a bottom edge reinforcing and edge bonding machine for paper-plastic composite bags (hereinafter referred to as a comparison document 1), which discloses the following contents: the machine comprises a machine table, a machine frame, a paper-plastic composite bag conveying belt, a reinforced kraft paper belt coil, a kraft paper belt supporting seat, a glue spraying device, a kraft paper belt traction device and a bonding and pressing device, wherein a group of paper-plastic composite bags are arranged on the paper-plastic composite bag conveying belt, and the reinforced kraft paper belt on the reinforced kraft paper belt coil and the sewing thread position of the paper-plastic composite bags are positioned on the same straight line. Compound bag's base reinforcement glues limit machine is moulded to paper, a set of glue spraying head that is located a straight line through setting up, glue passes through the shower nozzle blowout, compound bag is moulded to automatic paper of carrying of compound bag conveyer belt is moulded to paper along with paper, the container bag has been accomplished promptly and has been sent gluey work certainly, kraft paper tape draw gear can be automatic cover the viscose position department at compound bag is moulded to paper with the reinforcing ox belt, this compound bag's base reinforcement glues limit machine is moulded to paper has not only accelerated container bag body bonding speed, people's work efficiency has been improved, and reduce the cost of labor, the competitiveness of enterprise has been strengthened. The technology can only realize single-sided edge bonding, and the operation of bonding the two sides needs to be repeated for 2 times, so that the working efficiency is low.

The Chinese patent publication No. CN 215903992U, the publication date of No. 2022, 2 months and 25 days, the patent name of which is a paper-plastic composite bag multi-roll film laminating machine of a double-sided gloss color printing film (hereinafter referred to as a comparison document 2), discloses the following technical contents: including laminating machine board, laminating machine frame, braided bag support frame, film tensioning adjusting part, tectorial membrane horizontal direction subassembly, tectorial membrane compress tightly subassembly and tectorial membrane heating element set gradually along the direction of keeping away from the braided bag support frame, are equipped with the tectorial membrane film on the film support frame, are equipped with the braided bag on the braided bag support frame. The utility model discloses a compound bag multiple roll laminating machine is moulded to paper of two-sided gloss seal membrane, through the setting that film tensioning adjusting part, tectorial membrane level direction subassembly, tectorial membrane compressed tightly subassembly and tectorial membrane heating element, can level the laminating between braided bag and the film before the tectorial membrane, and then accelerate the tectorial membrane efficiency of paper compound bag to improve the production efficiency of paper compound bag, thereby guarantee the tectorial membrane quality of paper compound bag. Although the comparison document 2 can give a technical suggestion for realizing double-sided edge bonding on the basis of the comparison document 1, the technical problem that high efficiency and compact structure cannot be ensured when double-sided edge bonding can be realized cannot be solved on the basis of the comparison document 1 and the comparison document 2 which are combined with the prior art. In view of such circumstances, improvement is urgently required.

Disclosure of Invention

Based on the above, the invention aims to provide the efficient bidirectional edge bonding equipment for the paper-plastic products, which has a compact structure, can ensure that the double-sided edge bonding operation can be efficiently completed, and can ensure that the whole internal structure of the equipment is compact.

The invention provides a high-efficiency bidirectional edge bonding device for a paper-plastic product with a compact structure, which comprises a rack, wherein a feeding assembly, an upper rolling assembly, a lower rolling assembly, an upper paper tape rotating seat, a lower paper tape rotating seat, a traction assembly, a tensioning assembly, a heating assembly, a front cutting structure, a rear cutting structure and a glue spraying structure are arranged on the rack; the upper paper tape rotating seat and the lower paper tape rotating seat are respectively arranged on the same side and are opposite up and down; the upper paper tape rotating seat and the lower paper tape rotating seat are respectively rotatably provided with a paper tape roll to be pasted; the traction assembly is arranged on one side opposite to the upper paper tape rotating seat and the lower paper tape rotating seat; an edge bonding space is formed between the traction assembly and the upper paper tape rotating seat and between the traction assembly and the lower paper tape rotating seat; the upper rolling component is arranged right above the edge bonding space; the lower rolling component is arranged right below the edge bonding space; one side of the length direction of the edge bonding space is set to be a feeding side, and the feeding component is arranged on the feeding side; the heating assembly is arranged on the other side of the length direction of the edge bonding space; the tensioning assembly is arranged in the edge bonding space and close to one side of the upper paper tape rotating seat and one side of the lower paper tape rotating seat; the front cutting structure is arranged in the edge bonding space and is positioned between the lower paper tape rotating seat and the tensioning assembly; the rear cutting structure is arranged in the edge bonding space and is positioned between the lower paper tape rotating seat and the traction assembly; the glue spraying structure and the sticky edge space are correspondingly arranged and close to one side of the front cutting structure.

Further, the feeding assembly comprises a linear sliding table A, a lifting motor A, a mounting seat, a plurality of negative pressure air nozzles and a material bearing table; the linear sliding table A and the material bearing table are arranged on the rack, and the material bearing table is arranged on one side of the edge bonding space; the linear sliding table A is arranged right above the material bearing table and is vertical to the traction direction of the traction assembly; the lifting motor A is connected with the linear sliding table A in a sliding mode through a sliding seat, the power output end of the lifting motor A is connected with the mounting seat through a telescopic rod, and the negative pressure air nozzles are correspondingly and evenly distributed on the lower surface of the mounting seat.

Furthermore, a negative pressure air cavity is arranged below the material bearing platform, a plurality of negative pressure air holes communicated with the negative pressure air cavity are formed in the upper surface of the material bearing platform, and the negative pressure air cavity is connected with a negative pressure air source through an air pipe.

Furthermore, a limiting convex strip is fixedly arranged on the upper surface of one side, close to the tensioning assembly, of the material bearing platform; an auxiliary clamping assembly is arranged on one side, away from the limiting convex strip, of the material bearing platform; the auxiliary clamping assembly comprises a push-pull cylinder A and a batten, the push-pull cylinder A is installed on the rack, and the power output end of the push-pull cylinder A is connected with the batten through a push-pull rod.

Further, go up the roll extrusion subassembly and all include sharp slip table B, elevator motor B, U shape seat, compression roller down the roll extrusion subassembly, sharp slip table B installs in the frame, elevator motor B pass through the slide with sharp slip table B connects, elevator motor B's power take off end pass through the telescopic link with the U-shaped seat is connected, the compression roller rotates to be installed in the U-shaped seat.

Further, the traction assembly comprises a push-pull air cylinder B, a connecting seat, an upper finger air cylinder A and a lower finger air cylinder B, the push-pull air cylinder B is installed on the rack, the power output end of the push-pull air cylinder B is connected with the connecting seat through a push-pull rod, the connecting seat is respectively connected with the upper finger air cylinder A and the lower finger air cylinder B through connecting rods, the upper finger air cylinder A and the lower finger air cylinder B are vertically aligned, the upper finger air cylinder A corresponds to the upper paper tape rotating seat in position, and the lower paper tape rotating seat corresponds to the lower paper tape rotating seat in position.

Further, the tensioning assembly comprises an upper finger cylinder C and a lower finger cylinder D, the upper finger cylinder C and the lower finger cylinder D are both installed on the rack, the position of the upper finger cylinder C corresponds to the upper paper tape rotating seat, and the position of the lower finger cylinder D corresponds to the lower paper tape rotating seat.

Further, the heating assembly comprises a push-pull cylinder C, C-shaped seat, an upper electric heating plate, a lower electric heating plate and two electric telescopic rods, the push-pull cylinder C is installed on the rack, the power output end of the push-pull cylinder C is connected with the C-shaped seat, the upper electric heating plate and the lower electric heating plate are correspondingly arranged on one side of the C-shaped seat with an opening at the same side, one sides of the upper electric heating plate and the lower electric heating plate, which are far away from the edge bonding space, are movably connected with the C-shaped seat through extension plates, and the inner groove wall of the C-shaped seat is provided with a sliding groove for the extension plates to be inserted into; the upper surface and the lower surface of the C-shaped seat are both provided with electric telescopic rods, and the power output ends of the electric telescopic rods extend into the C-shaped seat and are respectively connected with the extension plates on the corresponding sides; and the inner cavities of the upper electric heating plate and the lower electric heating plate are both provided with electric heating rods.

Further, the front cutting structure and the rear cutting structure respectively comprise a linear sliding table C, a tool apron and a blade, the linear sliding table C is installed on the rack and is located below the direction in which a paper tape of the lower paper tape rotating seat is pulled, the tool apron is connected with the linear sliding table C through a sliding seat, the blade is correspondingly installed on the tool apron, and the linear sliding table C and the direction in which the paper tape is pulled form a vertical relation; the blade is higher than the upper surface of the paper tape above.

Further, the glue spraying structure comprises a glue conveying pipe, two glue spraying nozzles, an electronic valve, a glue storage tank and a pump, wherein the electronic valve is arranged on the glue conveying pipe; one end of the glue conveying pipe is connected with the pump through a pipeline, the pump is connected with the glue storage box through a pipeline, and the two glue spraying nozzles are correspondingly arranged on the upper side and the lower side of the free end of the glue conveying pipe and extend into the glue edge space to respectively correspond to the paper tape on the upper part and the paper tape on the lower part.

The invention has the beneficial effects that: be provided with the pay-off subassembly in the frame, go up the roller pressing subassembly, roll the subassembly down, go up the paper tape swivel mount, down the paper tape swivel mount, pull the subassembly, tensioning subassembly, heating element, preceding cutting structure, back cutting structure, spout gluey structure, realize automatic blanking, two-sided tape edge bonding, automatic cutting and stoving function, thereby ensure work efficiency, and the whole inner structure of equipment is compact, reduces the holistic size of equipment, practices thrift and takes up an area of the space.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective view of another angle of the present invention.

Fig. 3 is a left side view of the present invention.

Fig. 4 is a right side view of the present invention.

The reference signs are: the device comprises a feeding assembly 10, an upper roll pressing assembly 11, a lower roll pressing assembly 15, an upper paper tape rotating base 13, a lower paper tape rotating base 14, a traction assembly 16, an extension plate 56, a rear cutting structure 17, a push-pull air cylinder B19, a connecting base 18, an upper finger air cylinder A22, a lower finger air cylinder B21, a push-pull rod 20, a push-pull air cylinder C26, a C-shaped base 27, an upper electric heating plate 23, a lower electric heating plate 24, two electric telescopic rods 25, an upper paper tape roll 28, a lower paper tape roll 29, a front cutting structure 30, a linear sliding table C33, a cutter base 32, a cutter blade 31, an auxiliary clamping assembly 34, a linear sliding table B35, a lifting motor B36, a U-shaped base 37, a pressing roller 38, a linear sliding table A39, a lifting motor A40, a mounting base 41, a plurality of negative pressure air nozzles 42, a material bearing table 46, a push-pull air cylinder A43, a batten 45, a push-pull rod 44, a material bearing table 46, a limiting convex strip 12, a glue conveying structure 50, a glue spraying structure 49, a glue spraying nozzle 48, a lower finger air cylinder D51, a tensioning assembly 54, a tension assembly, Heating element 52, negative pressure air chamber 53, negative pressure air hole 55, extension plate 56.

Detailed Description

For a better understanding of the features and technical solutions of the present invention, together with the specific objects and functions attained by the invention, reference is made to the following detailed description and accompanying drawings that form a part hereof.

In the present invention, unless otherwise explicitly stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1-4, the present invention provides a compact structure of high efficiency bidirectional edge bonding equipment for paper-plastic products, which comprises a frame, wherein the frame is provided with a feeding assembly 10, an upper roller pressing assembly 11, a lower roller pressing assembly 15, an upper paper tape rotating base 13, a lower paper tape rotating base 14, a traction assembly 16, a tensioning assembly 54, a heating assembly 52, a front cutting structure 30, a rear cutting structure 17, and a glue spraying structure 50. The feeding assembly 10, the upper rolling assembly 11, the lower rolling assembly 15, the upper paper tape rotating seat 13, the lower paper tape rotating seat 14, the traction assembly 16, the tensioning assembly 54, the heating assembly 52, the front cutting structure 30, the rear cutting structure 17 and the glue spraying structure 50 are all connected with a control device.

The upper paper tape rotating seat 13 and the lower paper tape rotating seat 14 are respectively arranged on the same side and are opposite up and down; the upper tape rotary seat 13 and the lower tape rotary seat 14 are rotatably provided with paper tape rolls to be pasted, namely an upper paper tape roll 28 and a lower paper tape roll 29. A pulling member 16 is provided on the side opposite to the upper tape swivel base 13 and the lower tape swivel base 14; an edge bonding space is formed between the traction assembly 16 and the upper paper tape rotating seat 13 and between the traction assembly and the lower paper tape rotating seat 14; the upper rolling component 11 is arranged right above the edge bonding space; the lower rolling component 15 is arranged right below the edge bonding space; one side of the length direction of the edge bonding space is set as a feeding side, and the feeding component 10 is arranged at the feeding side; the heating component 52 is arranged at the other side of the length direction of the edge bonding space; a tension assembly 54 is provided in the binding space and near one side of the upper tape swivel 13 and the lower tape swivel 14; front cutting structure 30 is disposed within the edge-bonding space and between lower tape swivel 14 and tensioning assembly 54; the rear cutting structure 17 is arranged in the edge bonding space and is positioned between the lower paper tape rotary seat 14 and the traction assembly 16; the glue spraying structure 50 is disposed corresponding to the edge bonding space and is close to one side of the front cutting structure 30.

The feeding assembly 10 comprises a linear sliding table A39, a lifting motor A40, a mounting seat 41, a plurality of negative pressure air nozzles 42 and a material bearing table 46; the linear sliding table A39 and the material bearing table 46 are installed on the frame, and the material bearing table 46 is arranged on one side of the edge bonding space; the linear sliding table A39 is arranged right above the material bearing table 46 and is vertical to the traction direction of the traction assembly 16; the lifting motor A40 is connected with the linear sliding table A39 in a sliding mode through a sliding seat, the power output end of the lifting motor A40 is connected with the mounting seat 41 through a telescopic rod, and the negative pressure air nozzles 42 are correspondingly and evenly distributed on the lower surface of the mounting seat 41. The negative pressure air nozzle 42 is connected with a negative pressure air source through a pipeline. In actual operation, the linear sliding table a39 drives the lifting motor a40, the mounting seat 41 and the negative pressure air nozzles 42 to move back and forth above the material bearing table 46 through the sliding block, so that the loading and blanking operations are realized. When the material is taken and discharged, the mounting base 41 and the negative pressure air nozzles 42 are driven by the lifting motor A40 to realize the up-and-down displacement change, and then the paper-plastic product to be bonded with the edges is grabbed by the negative pressure air nozzles 42.

A negative pressure air cavity 53 is arranged below the material bearing platform 46, a plurality of negative pressure air holes 55 communicated with the negative pressure air cavity 53 are arranged on the upper surface of the material bearing platform 46, and the negative pressure air cavity 53 is connected with a negative pressure air source through an air pipe. Through the structure setting like this, make and treat that the sticky edge paper is moulded the product and place and fix on holding material platform 46 through exporting the negative pressure gas will treat that the sticky edge paper is moulded the product and is placed behind the corresponding position of holding material platform 46, can stabilize and can not rock when guaranteeing the sticky surface operation.

The upper surface of one side of the material bearing platform 46 close to the tensioning assembly 54 is fixedly provided with a limiting convex strip 12; an auxiliary clamping assembly 34 is arranged on one side of the material bearing platform 46 far away from the limiting convex strip 12; the auxiliary clamping assembly 34 comprises a push-pull cylinder A43 and a clamping strip 45, the push-pull cylinder A43 is installed on the rack, and the power output end of the push-pull cylinder A43 is connected with the clamping strip 45 through a push-pull rod 44. Through setting up supplementary centre gripping subassembly 34, can form the guide space through the mutually supporting of battens 45 and spacing sand grip 12 on the one hand, make and treat that the sticky edge paper moulds the product and carry to the position in sticky edge space at the spacing within range of battens 45 and spacing sand grip 12 to, can adjust the relative distance between battens 45 and the spacing sand grip 12 at any time through push-and-pull cylinder A43, thereby adapt to not unidimensional product.

Go up roller pressing subassembly 11 and roller pressing subassembly 15 down and all include sharp slip table B35, elevator motor B36, U-shaped seat 37, compression roller 38, and sharp slip table B35 installs in the frame, and elevator motor B36 passes through the slide and is connected with sharp slip table B35, and elevator motor B36's power take off end passes through the telescopic link and is connected with U-shaped seat 37, and compression roller 38 rotates and installs in U-shaped seat 37. In actual operation, after the lifting motor B36 drives the U-shaped seat 37 and the press roller 38 to press the upper paper tape roll 28 and the lower paper tape roll 29 to the paper-plastic product to be edge-glued, the upper and lower linear sliding tables B35 synchronously drive the lifting motor B36, the U-shaped seat 37 and the press roller 38 to move back and forth for a predetermined number of times, so that the kraft tapes on the upper and lower sides are tightly glued at corresponding positions of the paper-plastic product.

The traction assembly 16 comprises a push-pull air cylinder B19, a connecting seat 18, an upper finger air cylinder A22 and a lower finger air cylinder B21, the push-pull air cylinder B19 is installed on the rack, the power output end of the push-pull air cylinder B19 is connected with the connecting seat 18 through a push-pull rod 20, the connecting seat 18 is respectively connected with the upper finger air cylinder A22 and the lower finger air cylinder B21 through connecting rods, the upper finger air cylinder A22 and the lower finger air cylinder B21 are vertically aligned, the upper finger air cylinder A22 corresponds to the upper paper tape rotating seat 13, and the lower paper tape rotating seat 14 corresponds to the lower paper tape rotating seat 14. In actual operation, the push-pull cylinder B19 causes the push-pull rod 20 to drive the connecting seat 18, the upper finger cylinder a22 and the lower finger cylinder B21 to move in the direction of the upper rolling assembly 11 and the lower rolling assembly 15 until the upper finger cylinder a22 and the lower finger cylinder B21 correspondingly grab the free ends of the upper paper tape roll 28 and the lower paper tape roll 29, and the push-pull cylinder B19 causes the push-pull rod 20 to drive the connecting seat 18, the upper finger cylinder a22 and the lower finger cylinder B21 to reset.

The tensioning assembly 54 comprises an upper finger cylinder C47 and a lower finger cylinder D51, wherein the upper finger cylinder C47 and the lower finger cylinder D51 are both mounted on the frame, the upper finger cylinder C47 corresponds to the upper paper tape swivel base 13, and the lower finger cylinder D51 corresponds to the lower paper tape swivel base 14. After the pulling assembly 16 pulls the upper paper tape roll 28 and the lower paper tape roll 29 by a predetermined length, the upper finger cylinder C47 and the lower finger cylinder D51 clamp the paper tape on the side of the upper paper tape swivel mount 13 and the lower paper tape swivel mount 14, respectively, in preparation for the subsequent rolling, cutting and drying operations.

The heating component 52 comprises a push-pull cylinder C26, a C-shaped seat 27, an upper electric heating plate 23, a lower electric heating plate 24 and two electric telescopic rods 25, the push-pull cylinder C26 is installed on the frame, the power output end of the push-pull cylinder C26 is connected with the C-shaped seat 27, the upper electric heating plate 23 and the lower electric heating plate 24 are correspondingly arranged on the same side of the C-shaped seat 27 with an opening, one sides of the upper electric heating plate 23 and the lower electric heating plate 24 far away from the edge bonding space are movably connected with the C-shaped seat 27 through an extension plate, and the inner groove wall of the C-shaped seat 27 is provided with a sliding groove for the extension plate 56 to be inserted into; the upper surface and the lower surface of the C-shaped seat 27 are both provided with the electric telescopic rods 25, and the power output ends of the electric telescopic rods 25 extend into the C-shaped seat 27 and are respectively connected with the extension plates 56 on the corresponding side; the inner cavities of the upper electric heating plate 23 and the lower electric heating plate 24 are both provided with electric heating rods. In actual operation, the push-pull cylinder C26 drives the C-shaped seat 27, the upper electric heating plate 23, the lower electric heating plate 24 and the two electric telescopic rods 25 to move towards the paper-plastic product with double-sided sticky surface until the part of the paper-plastic product with the sticky paper tape enters between the upper electric heating plate 23 and the lower electric heating plate 24, the two electric telescopic rods 25 drive the upper electric heating plate 23 and the lower electric heating plate 24 to press down the paper-plastic product to be dried for a set time, and the heating assembly 52 is reset along with the hand to prepare for next drying.

The front cutting structure 30 and the rear cutting structure 17 respectively comprise a linear sliding table C33, a cutter holder 32 and a blade 31, the linear sliding table C33 is installed on the rack and is positioned below the paper tape traction direction of the lower paper tape rotating seat 14, the cutter holder 32 is connected with the linear sliding table C33 through a sliding seat, the blade 31 is correspondingly installed on the cutter holder 32, and the linear sliding table C33 and the paper tape traction direction form a vertical relation; the blade 31 is at a height above the upper surface of the paper strip above it. In operation, the knife holder 32 and the knife blade 31 are driven by the linear sliding table C33 to move between the upper paper roll 28 and the lower paper roll 29, so as to realize cutting operation.

The glue spraying structure 50 comprises a glue conveying pipe 49, two glue spraying nozzles 48, an electronic valve (not shown in the drawing), a glue storage tank (not shown in the drawing) and a pump (not shown in the drawing), wherein the electronic valve is arranged on the glue conveying pipe 49; one end of the glue conveying pipe 49 is connected with a pump through a pipeline, the pump is connected with the glue storage box through a pipeline, and the two glue spraying nozzles 48 are correspondingly arranged on the upper side and the lower side of the free end of the glue conveying pipe 49 and extend into the sticky edge space to respectively correspond to the paper tape on the upper part and the paper tape on the lower part. In actual operation, the pump pumps the glue in the glue storage tank to the glue conveying pipe 49, the opening and closing of the glue spraying nozzle 48 are controlled by the electronic valve, and when the traction assembly 16 performs traction operation, the upper glue spraying nozzle 48 and the lower glue spraying nozzle 48 simultaneously spray glue on the paper tapes of the upper paper tape roll 28 and the lower paper tape roll 29 respectively.

The operation steps of the embodiment are as follows:

1. the feeding assembly 10 transfers the paper-plastic composite bag product to a corresponding position, and the sewing position is extended into the edge bonding space to prepare for the next edge bonding operation;

2. the traction assembly 16 respectively pulls the paper tape out of the upper paper tape rotating base 13 and the lower paper tape rotating base 14 by a preset length, the glue spraying structure 50 sprays glue on the pulled upper and lower paper tapes during the traction action, and after the traction action of the preset length is finished, the tensioning assembly 54 acts to clamp and fix the paper tapes in the upper paper tape rotating base 13 and the lower paper tape rotating base 14;

3. the upper roller pressing assembly 11 and the lower roller pressing assembly 15 synchronously move back and forth towards the paper-plastic composite bag in opposite directions until upper and lower paper tapes are adhered to the paper-plastic composite bag with sewing threads, and the upper roller pressing assembly 11 and the lower roller pressing assembly 15 reset;

4. the heating component 52 compresses the paper-plastic composite bag with the sewing thread after completing the paper tape pasting, and then carries out heating and drying for a set time;

5. after the step 4 is finished, the front cutting structure 30 and the rear cutting structure 17 synchronously act to finish the cutting action;

6. the feeding component 10 moves out the paper-plastic composite bag product with the edge being adhered; the operation is repeated in this manner.

This embodiment realizes automatic blanking, two-sided gluing limit, automatic cutting and stoving function to ensure work efficiency, and this embodiment adopts the mode that four sides were enclosed to establish to set up the subassembly of each process, makes whole inner structure compact, reduces the holistic size of equipment, practices thrift and takes up an area of the space.

The above-mentioned embodiments only express one embodiment of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a compact structure's high-efficient two-way limit equipment that glues of paper plastic products, includes the frame, its characterized in that: the machine frame is provided with a feeding assembly (10), an upper rolling assembly (11), a lower rolling assembly (15), an upper paper tape rotating seat (13), a lower paper tape rotating seat (14), a traction assembly (16), a tensioning assembly (54), a heating assembly (52), a front cutting structure (30), a rear cutting structure (17) and a glue spraying structure (50); the upper paper tape rotating seat (13) and the lower paper tape rotating seat (14) are respectively arranged on the same side and are opposite up and down; the upper paper tape rotating seat (13) and the lower paper tape rotating seat (14) are respectively provided with a paper tape roll to be pasted in a rotating way; the traction assembly (16) is arranged on the side opposite to the upper paper tape rotating seat (13) and the lower paper tape rotating seat (14); an edge sticking space is formed between the traction assembly (16) and the upper paper tape rotating seat (13) and between the traction assembly and the lower paper tape rotating seat (14); the upper rolling component (11) is arranged right above the edge bonding space; the lower rolling component (15) is arranged right below the edge bonding space; one side of the length direction of the edge bonding space is set as a feeding side, and the feeding component (10) is arranged on the feeding side; the heating component (52) is arranged at the other side of the length direction of the edge bonding space; the tensioning assembly (54) is arranged in the edge sticking space and close to one side of the upper paper tape rotating seat (13) and the lower paper tape rotating seat (14); the front cutting structure (30) is arranged in the edge bonding space and is positioned between the lower paper tape rotary seat (14) and the tensioning assembly (54); the rear cutting structure (17) is arranged in the edge gluing space and is positioned between the lower paper tape rotating seat (14) and the traction assembly (16); the glue spraying structure (50) is arranged corresponding to the edge sticking space and close to one side of the front cutting structure (30).

2. The high-efficiency bidirectional edge bonding equipment for the paper-plastic products with compact structures as claimed in claim 1, is characterized in that: the feeding assembly (10) comprises a linear sliding table A (39), a lifting motor A (40), a mounting seat (41), a plurality of negative pressure air nozzles (42) and a material bearing table (46); the linear sliding table A (39) and the material bearing table (46) are installed on the rack, and the material bearing table (46) is arranged on one side of the edge bonding space; the linear sliding table A (39) is arranged right above the material bearing table (46) and is vertical to the traction direction of the traction assembly (16); lifting motor A (40) through the slide with sharp slip table A (39) sliding connection, lifting motor A's (40) power take off end through the telescopic link with mount pad (41) are connected, each negative pressure gas is chewed (42) and is corresponded the equipartition and be in the lower surface of mount pad (41).

3. The high-efficiency bidirectional edge bonding equipment for the paper-plastic products with compact structures as claimed in claim 2, is characterized in that: a negative pressure air cavity (53) is arranged below the material bearing platform (46), a plurality of negative pressure air holes (55) communicated with the negative pressure air cavity (53) are arranged on the upper surface of the material bearing platform (46), and the negative pressure air cavity (53) is connected with a negative pressure air source through an air pipe.

4. The high-efficiency bidirectional edge sticking equipment for the paper-plastic products with compact structures as claimed in claim 2 or 3, is characterized in that: the upper surface of one side, close to the tensioning assembly (54), of the material bearing platform (46) is fixedly provided with a limiting convex strip (12); an auxiliary clamping assembly (34) is arranged on one side, away from the limiting convex strip (12), of the material bearing platform (46); the auxiliary clamping assembly (34) comprises a push-pull cylinder A (43) and a clamping strip (45), the push-pull cylinder A (43) is installed on the rack, and the power output end of the push-pull cylinder A (43) is connected with the clamping strip (45) through a push-pull rod (44).

5. The high-efficiency bidirectional edge bonding equipment for the paper-plastic products with compact structures as claimed in claim 1, is characterized in that: go up roll-in subassembly (11) and roll-in subassembly (15) down and all include sharp slip table B (35), elevator motor B (36), U-shaped seat (37), compression roller (38), sharp slip table B (35) is installed in the frame, elevator motor B (36) through the slide with sharp slip table B (35) is connected, the power take off end of elevator motor B (36) pass through the telescopic link with U-shaped seat (37) are connected, compression roller (38) rotate to be installed in U-shaped seat (37).

6. The high-efficiency bidirectional edge bonding equipment for the paper-plastic products with compact structures as claimed in claim 1, is characterized in that: the traction assembly (16) comprises a push-pull air cylinder B (19), a connecting seat (18), an upper finger air cylinder A (22) and a lower finger air cylinder B (21), the push-pull air cylinder B (19) is installed on the rack, the power output end of the push-pull air cylinder B (19) is connected with the connecting seat (18) through a push-pull rod (20), the connecting seat (18) is respectively connected with the upper finger air cylinder A (22) and the lower finger air cylinder B (21) through connecting rods, the upper finger air cylinder A (22) and the lower finger air cylinder B (21) are vertically aligned, the upper finger air cylinder A (22) corresponds to the upper paper tape rotating seat (13), and the lower paper tape rotating seat (14) corresponds to the lower paper tape rotating seat (14).

7. The high-efficiency bidirectional edge bonding equipment for the paper-plastic products with compact structures as claimed in claim 1, is characterized in that: tensioning assembly (54) include finger cylinder C (47), finger cylinder D (51) down, upward finger cylinder C (47), finger cylinder D (51) all install in the frame down, go up finger cylinder C (47) the position with go up paper tape swivel mount (13) and correspond, the position of finger cylinder D (51) down with paper tape swivel mount (14) correspond down.

8. The high-efficiency bidirectional edge bonding equipment for the paper-plastic products with compact structures as claimed in claim 1, is characterized in that: the heating assembly (52) comprises a push-pull cylinder C (26), a C-shaped seat (27), an upper electric heating plate (23), a lower electric heating plate (24) and two electric telescopic rods (25), wherein the push-pull cylinder C (26) is installed on a rack, the power output end of the push-pull cylinder C (26) is connected with the C-shaped seat (27), the upper electric heating plate (23) and the lower electric heating plate (24) are correspondingly arranged on one side, with an opening, of the C-shaped seat (27) at the same side, one sides, far away from the edge bonding space, of the upper electric heating plate (23) and the lower electric heating plate (24) are movably connected with the C-shaped seat (27) through extension plates, and the inner groove wall of the C-shaped seat (27) is provided with a sliding groove for the extension plate (56) to insert; the upper surface and the lower surface of the C-shaped seat (27) are both provided with electric telescopic rods (25), and the power output ends of the electric telescopic rods (25) extend into the C-shaped seat (27) and are respectively connected with the extension plates (56) on the corresponding side; the inner cavities of the upper electric heating plate (23) and the lower electric heating plate (24) are provided with electric heating rods.

9. The high-efficiency bidirectional edge bonding equipment for the paper-plastic products with compact structures as claimed in claim 1, is characterized in that: the front cutting structure (30) and the rear cutting structure (17) respectively comprise a linear sliding table C (33), a tool apron (32) and a blade (31), the linear sliding table C (33) is installed on the rack and is located below the paper tape traction direction of the lower paper tape rotating seat (14), the tool apron (32) is connected with the linear sliding table C (33) through a sliding seat, the blade (31) is correspondingly installed on the tool apron (32), and the linear sliding table C (33) and the paper tape traction direction form a vertical relation; the blade (31) is higher than the upper surface of the paper tape above.

10. The high-efficiency bidirectional edge bonding equipment for the paper-plastic products with compact structures as claimed in claim 1, is characterized in that: the glue spraying structure (50) comprises a glue conveying pipe (49), two glue spraying nozzles (48), an electronic valve, a glue storage box and a pump, wherein the electronic valve is arranged on the glue conveying pipe (49); one end of the glue conveying pipe (49) is connected with the pump through a pipeline, the pump is connected with the glue storage box through a pipeline, and the two glue spraying nozzles (48) are correspondingly arranged on the upper side and the lower side of the free end of the glue conveying pipe (49) and extend into the glue edge space to respectively correspond to the paper tape on the upper portion and the paper tape on the lower portion.